CrCl3 is insoluble, unless it is in its hydrated form CrCl3*6H2O
There is no compound with the formula CrCI3 (uppercase i). You most likelt mean CrCl3, with a lowercase L. This is chromium III chloride.
Negative charge = electron Positive charge = positron Positive charge = proton
A positive charge is a positive electrical charge. Particles with no charge are called neutral particles.
The charge on an electron is never equal to the charge on a neutron. An electron carries one negative charge and a neutron has no net charge.
CrCl3: A chloride ion has only a single negative charge; therefore, three of them are required to have the same magnitude of electric charge as a chromium (III) ion.
5396kJ/mol
hyponitrous acid
Because the chromium ion is in its trivalent form.
This reaction gives spinage green CrCl3 and BaCl2 which both of them are soluble in water This reaction gives spinage green CrCl3 and BaCl2 which both of them are soluble in water
S sulfur
CrCl3 is insoluble, unless it is in its hydrated form CrCl3*6H2O
K2Cr2O7+14HCl ---> 3Cl2 + 2CrCl3 + 2KCl + 7H2O
There is no compound with the formula CrCI3 (uppercase i). You most likelt mean CrCl3, with a lowercase L. This is chromium III chloride.
(NH3)5Cl3CrIt would be more descriptive to write it like this though [(NH3)5ClCr]2+ 2Cl-
In this case you have a Salt that comes from a binarius acid (HCl) you have to remember in salts you are always using the oxidation number with H (Cl= -1) so Cr is using 3 :) as you have seen im not a English native speaker... sorry for mistakes :D
Commercially anhydrous chromium(III) chloride may be prepared bychlorination of chromium metal directly, or indirectly by chlorination ofchromium(III) oxide in the presence of carbon at 650--800 °C, with carbon monoxide as a side-product:[3] Cr2O3 + 3 C + 3 Cl2 → 2 CrCl3 + 3 CO It may also be prepared by treating the hexahydrate with thionyl chloride:[4] CrCl3·6H2O + 6 SOCl2 → CrCl3 + 6 SO2 + 12 HCl